We design and implement free, open-source software for motion analysis, 3D visualization, and motion capture integration. Supporting research labs, universities, and innovative sports-tech companies in processing and analyzing kinematic data.
Free, modern tools and scripts supporting research on human movement
Native desktop application for automated clinical biomechanics PDF/CSV extraction (Biodex, Noraxon EMG/IMUs, Humac, force plates), interactive multi-sensor dataset building, local RAG research, and local LLM fine-tuning. Built for offline-first, GDPR/HIPAA-compliant sports science laboratories.
Web-based 3D motion capture visualizer and analyzer for Biovision Hierarchy (.bvh) files. The application enables smooth skeleton rendering directly in the browser, joint angle calculations, sensor trajectory tracking, and kinematic telemetry data export to CSV files.
Complete hardware blueprint, firmware, and Python script suite for assembling a low-cost, high-scale (up to 200g) inertial measurement unit (IMU). Tailored for combat sports strike diagnostics, capturing linear accelerations and angular velocities.
Web application for markerless motion capture and joint angle analysis using a standard webcam or video files. Utilizes artificial intelligence MediaPipe to detect body landmarks and automatically calculates joint angular velocities.
Specialized analytical scripts for segmenting and analyzing data from Noraxon Ultium EMG sensors and AMTI force plates. Filters EMG noise and automatically segments continuous sessions into individual strikes, plotting average force profiles.
A practical integration example demonstrating how to stream raw acceleration telemetry data from a single Perception Neuron 3 inertial sensor via the Axis Studio SDK (Mocap.api) for biofeedback systems.
We offer expert consultation for laboratory equipment setups and custom code development
We develop custom scripts in Python and Matlab for kinematic signal processing. We build interactive WebGL/Three.js 3D motion viewers integrated with biomechanical models.
We help integrate, calibrate, and program wireless IMU sensors, motion capture systems (Noitom Perception Neuron, OptiTrack), and force plates.
We prepare automated scripts for statistical analysis of laboratory trials, data filtering (noise reduction), and generating standardized research reports.
Discover an interactive training tool for physiotherapists, available directly within Telegram. Take on the role of a diagnostician, conduct a detailed patient interview, order orthopedic tests (e.g., Lasegue, Phalen, Tinel, or Lachman tests), and analyze imaging results (X-ray, Ultrasound, MRI). Test your clinical reasoning and receive an automatic diagnostic accuracy report.
Biokineticum was founded by Dr. hab. Dariusz Mosler, PhD – university lecturer and assistant professor at Jan Dlugosz University in Czestochowa, and a member of the Topical Advisory Panel for the MDPI scientific journal Applied Biosciences and Bioengineering.
Our workshop represents a unique blend of years of clinical and sports biomechanics expertise and practical software engineering (Python, Data Science). We build secure offline software and conduct research to democratize digital human movement analysis.
Learn more about my academic backgroundOn our video channel, we regularly publish practical recordings of our biomechanical research, tutorials on configuring and using motion capture systems (such as Noitom's inertial IMU sensors), and demonstrations of the motion analysis scripts and algorithms we develop.
See first-hand how we combine biomechanics, mathematics, Python programming, and modern sensor technology.
Subscribe to our YouTube channelCollaborating with innovators implementing evidence-based solutions
Victor and his brand, Garrido Sportech, are pioneers in bringing sports into the realm of evidence-based medicine. Their innovative technological solutions enable precise, quantitative biomechanical analysis directly in real-world training environments.
Through our joint projects, we are revolutionizing athletic performance measurement and report automation, converting complex inertial sensor readings into actionable indicators for coaches and clinicians.
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